DE1293966B - Method and device for impregnating porous bodies - Google Patents

Description

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The invention relates to a method and flow of the impregnation metal at the moment of a device for impregnating porous bodies prevents melting.

with a metal with a low melting point by the method and apparatus according to the invention

Heating of the porous body in a lower and are in the following with reference to schematic characters calculated amount of the impregnation metal in 5 calculations 1 and 2 in two embodiments a zone arranged above it, which is described via a solubility.

bare barrier are connected to each other, F i g. 1 shows a perspective view in section

on a device according to the invention above the melting point of the impregnation;
metal, and it relates in particular to impregnation F i g. 2 shows in section an elevation of a

binding after the impregnation has been melted on metal and it relates in particular to impregnation F i g. 1.

large porous body made of refractory metal _{The mm} impregnate a porous body

metals with others, a lower melting point _m serving metals having AESS the inventive method. Crucible 10 is shown in FIG. 1 shown. The lower

The impregnation of porous metal bodies with another section 11 of this crucible is limited by their metals by receiving the metal with the walls 12 and the bottom 13, which is a lower melting point in the porous body chamber 14 for receiving the material to be impregnated in metallurgy widespread. Form porous body 15 for production. The openings 16 in the electrical contact elements to set, for example, walls ensure a pressure equalization between small porous body of a metal powder, such as 20 of the lower chamber of the crucible and the tungsten, make and impregnating these with a metal _SE n surrounding atmosphere,
high electrical conductivity, such as silver, copper on the first section of the crucible can

or nickel. But such in the preparation of _e j _{n zwe} iter or upper portion 20 may be arranged, objects applicable known methods are the walls 21 and the bottom 22 a second non-large for a complete impregnation 25 chamber 23 for receiving the impregnated porous pieces suitable as these Process always form materials 24. In the outer, lower corner of an externally executed manipulation for the bottom part of the upper section 20, a groove 25 releasing the connection between the liquid metal is formed so that the upper section in the wall tall and the porous body make necessary the of the lower section can be fitted,
are first heated separately from each other. _30, the bottom 22 of the upper portion is at a low point impene- These manipulations are practically out slightly arched. The pipe 30, which is provided with a very high temperature cooled duct 31 in an opening 32 located in the deep part and in particular also in the most point of the upper section, has a considerable weight in the impregnation metal. screwed in. In a step 33 of this tube is Moreover, in the known training 35 _e ine thin plate 34 of suitable material, which act as guides of the barrier between molten blocking is used for the tube. This blocking of the impregnating agent and the porous body is not absolute _w j _r d can be achieved by an intermediate ring 35 and a tight seal, which is, however, indispensable opening in the bottom of the upper section to prevent any premature drainage of liquid screwed connecting piece 36 in its position solid impregnation metal too restrained to the porous body. The various parts of the crucible prevent, in particular if, during the heating-up phase, they consist of materials which are aimed at the temperature necessary for the implementation period to sinter the porous body at the same time as the impregnation. withstand and not with the melted im-

The aim of the invention is an improved method of chemically reacting impregnating agents. The block for the impregnation of porous bodies, in particular part 34, which is also not allowed to react with the impregnation large porous body made of high-melting compound, must have a melting point of tall, with metals that have a lower melting point, which is above the melting point of the impregnation and after there is a high degree of saturation of metal,
is achieved. To carry out the inventive method

Another object of the invention is to provide improved driving with the apparatus of FIG. 1 becomes the Device for carrying out the impregnation porous body 15 for impregnation in the chamber such porous body. 14 of the lower section 11 brought. In the ge

The method according to the invention is essentially the embodiment, the porous body is a borrowed characterized in that as a barrier ring-shaped piece of tungsten, which according to known a fusible block is used, made from metal powder by methods; the Reaching the impregnation temperature for the melt impregnation agent consists of silver, the melt brings. crucibles made of carbon. The piece made of tungsten is made

The device according to the invention has two arranged on a base 37 made of molybdenum, one above the other Gap sections of a crucible with it slightly above the bottom of the crucible. In the chamber of the first section you bring 60 will hold.

the porous body to be impregnated. The second then the upper section 20 on top of the lower

Section lies above the first and is set with a section.

desired amount of impregnation metal filled. As shown in FIG. 1, the tube 30 traverses

A tube is attached between the two chambers, the central opening in the ring-shaped tungsten body, around the molten impregnation metal in the un- 65 This pipe can of course depending on the shape of the to teren crucible section to flow. This impregnating body also in places other than Tube is to be placed in the center of the crucible to accommodate a blockage. Man Fusible material set up, which the Aus can also attach it so that its lower end

3 4

directly above a certain part of the tungsten from a material with a predetermined fusible link ends. Period. The porcelain piece is made up of a sleeve

A blocking device 34 made of a suitable carbon 70 and a screwed-in ring

Neten metal whose melting point is set between that of the 71 in its position.
to be impregnated body and that of the impregnation 5 If you choose this modified type of pipe, so

Rungsmittel is, is in the tube 30 for blocking flows after melting of the serving as a blockage

of the flow. If you put a piece of wire the impregnation metal slowly into the

If tungsten wants to be impregnated with silver, one can call it chamber 52. The impregnation metal is then made of

Blocking use a plate made of pure iron. absorbed by the porous body to the extent that

This plate is through an intermediate ring made of porio it flows into the lower chamber, and one prevents

zellan 35 and an annular connector 36 thereby flooding the porous body,

set from carbon. In this way one avoids a simultaneous one

The impregnation agent, in this case silver, penetrates all surfaces that are inside

is brought into the upper chamber 23. Then the porous body becomes an enclosure of

a lid 38 placed on the upper section would conduct 15 gases and thereby complete

splashing out and excessive volatilization - penetration with the impregnation liquid

to avoid the generation of silver during operation. would hinder. It has been found that one

Thereafter, the entire crucible 10 is achieved in a more complete impregnation of the body,

Furnace with an inert atmosphere, e.g. B. hydrogen when the melted impregnant with

posed. 20 at a speed in the lower chamber

The temperature of the oven is set to an intermediate level, which is the speed of absorption of the

the melting point of the silver and that of the iron impregnating agents through the porous body

plate value. The melting pot does not exceed.

is at this temperature for a period of time The additional coil 62 consists of a tube, which

left in the furnace sufficient to keep the silver 25 ches to the level of the blockage around the tube 60

melt and make sure the melted winds. This coil can be applied to the

Silver and the body made of tungsten an additional heating in the essential area of the blocking, or

borrowed have reached uniform temperature. Then to cool down the blockage or to remove the

will cool the temperature of the furnace over the melting block and then heat it up as

point of the blocking device, which will be explained 30 below.

thereby melts and the molten silver by working with the device according to FIG. 2, so

allows the channel 31 to flow into the lower chamber 14. can be according to a characteristic of the invention

In this lower chamber the molten material penetrates as a blockage a small piece of a fusible

Use silver through the capillary action in the porous body wire 65, the melting point of which is between

by made of tungsten. Provided that there is between that of silver and that of tungsten;

the molten silver and the body of Wolf- z. B. made of stainless steel. You push this wire

ram there is no significant temperature difference into the opening 69 of the porcelain piece 66. The porous

the silver remains fluid and flows freely through the body of tungsten 75 being into the lower chamber

porous body that is completely permeated with silver. 52 brought. The upper section that deals with the

The crucible is then back on room 40 tube 60 winding auxiliary coil 62 is then on

temperature cooled, causing the solidification of the set in the lower section. In the chamber 54 is

Inside the piece of tungsten distributed silver safely brought silver 76, and the whole thing with a lid

is provided. 77 covered.

F i g. 2 represents a modified in several points The carbon crucible is turned into a

3rd embodiment of the crucible brought to 45 hydrogen atmosphere, then by induction

F i g. 1. The crucible 50 has a lower, tion by means of high-frequency current through the coil 61

a chamber 52 forming portion 51 and a heated. The temperature of the crucible is then

upper, a chamber 54 forming section 53, to a value between the melting point of the SiI-

similar to the crucible of Fig. 1. One in bers and that of tungsten increased. Then you stop

pipe 50 screwed to the bottom of the upper portion maintains the temperature for a period of time,

60 enables the connection of the upper chamber 54 which is so long that the entire tungsten body

with the lower chamber 52 through the channel 68, which has a uniform, molten silver

initially assumes block-speaking temperature due to the blocking device 65,

is kiert. An induction heating coil 61 surrounds the If this is the case, one leaves an electric one

Crucible made of a material such as B. run from 55 current through the auxiliary coil 62 to locally the

Carbon, is formed and increased by induction by means of temperature so that the blockage

High-frequency current passing through the coil 61 melts. After the blocking part has melted, it flows

can be heated. In the area of the blocking piece, the silver through channel 68 into the lower chamber.

65 is an auxiliary coil or cooling coil 62 around which the silver is removed by the capillary action

Tube 60 attached. 60 porous bodies are added, and it results in a

The in Fig. The tube 60 shown in FIG. 2 is an even and complete distribution of the silver conversion of the tube according to FIG. 1. In the channel 68 in the entire piece of tungsten. Then the enamel is cooled down in a porcelain crucible supported on a shoulder 67 and the impregnated piece of tungsten 66, which has a narrow opening 69, is removed from the lower chamber,
which reduces the clear width of the canal. According to another embodiment of the invention, a small piece of fine wire is used to close a short piece of fusible wire 65, which is pressed into the opening 65 with a silver corresponding or and serves as a blockage. The wire consists of below the melting point of the silver in the

opening 69 of the porcelain piece 66 pushed in. It It is advantageous to use silver as a blocking material because it does not have any at the moment of melting Brings impurity into the impregnation metal. As explained above, is located in the lower chamber 52 of the crucible 50, a body made of tungsten 75; in the upper chamber 54 one brings one Silver charge 76 and places the crucible in an inert atmosphere.

During the increase in the temperature of the crucible by means of high frequency current flowing through the coil 61 is running, the neighboring area of the blocking device is by means of the auxiliary coil or cooling coil 62 flowing cooling liquid is cooled. The top and bottom sections of the crucible are then brought to a temperature between the melting point of the silver and that of Tungsten increases, but the blockage remains on one temperature below the melting point of the silver. This condition is sufficient during a Maintained period of time to maintain a uniform temperature of the body of tungsten and the molten silver.

Then the cooling of the neighboring area around the blockage is interrupted by stopping the flow the cooling liquid in the auxiliary coil 62 prevents or reduces its speed. the This increases the temperature of the blockage and melts the blockage, clearing the channel 68 and the molten silver can flow through it into the lower chamber.

According to a modification of the previous embodiment of the invention, a high-frequency current can be used send into the auxiliary coil 62 after seeing the flow of the cooling liquid in this Has cut the coil. The one to increase the temperature of the blockage above its melting point Any additional heat required can also be applied directly to the desired location, and the blocking melts faster that way. You can also let the cooling liquid continue to circulate in the coil 62, while the heat necessary to melt the blockage is supplied by high-frequency current.

Although only two embodiments of the device according to the invention are shown in the figures various features can be used for any embodiment. So you can heat the crucible initially in a furnace or by high frequency current. The blocking device can be a thin, flat plate or formed from a small piece of wire. Other combinations are of course possible without that one exceeds the scope of the present invention.

example

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A ring-shaped porous body made of tungsten is impregnated with silver in a device according to FIG. 1, the tube of which is modified according to FIG. The ring-shaped body made of tungsten has approximately the following dimensions: outer diameter cm, inner diameter 10 cm and height 16.5 cm. The body weighs about 122 kg and has a density of about 77% of the theoretical density. the Blocking consists of a wire made of pure iron with a length of 6 mm and a diameter of 1 mm. A charge of 20 kg of silver is used as the impregnation metal.

The impregnation process is carried out in a hydrogen atmosphere through an electrical resistor carried out heated oven. The middle zone of the furnace is kept at a temperature of 1460 ° C, while gradually approaching the crucible to the center in about 4 hours and then during one Lets stand in this zone for a period of 3 hours. Then the temperature will gradually increase in 2 hours and after increased to 1550 ° C and held at this value for 4 hours. During this time it melts the blocking iron wire and the molten silver flows into the lower chamber and is absorbed into the porous body made of tungsten by capillary action. In the course of the following The crucible is placed in the cold zone of the furnace for 3 hours and there for about 4 hours leave before taking it out of the oven. The bodies treated in this way were 100% saturated with silver.

Claims (7)

Patent claims: 1. A method for impregnating porous bodies, in particular large format of refractory metal, with a metal with a lower Melting point by heating the porous body in a lower and a calculated Amount of impregnation metal in a zone immediately above that is about a releasable barrier communicating with each other, at one above the melting point of the Impregnation metal lying temperature and release of this connection after melting of the impregnation metal, characterized in that a fusible barrier is used Blocking is used, which is used to melt after reaching the impregnation temperature brings. 2. The method according to claim 1, characterized in that the melting of the blockage by increasing the temperature of the entire system or by local temperature control is reached in the area of the blockage. 3. Process according to Claims 1 and 2, characterized in that there is a fusible Blocking from the impregnation metal used and their melting by an adequate local cooling is prevented until the impregnation temperature is reached. 4. The method according to any one of the preceding claims, characterized in that by Choice of a correspondingly small opening width of the connection between the two zones, the impregnation metal reaches the lower zone only to the extent that it is absorbed by the porous body will. 5. Apparatus for performing the method according to claim 1, characterized by two superimposed chambers of a crucible made of refractory material that is not attacked by the impregnation metal, the bottom of the upper chamber with a tube protruding into the lower chamber is provided, which has a fusible blockage inside contains, and the upper chamber is closed with a lid. 6. Apparatus according to claim 5, characterized in that the fusible blockage from a thin metal plate or a small piece of wire with a small diameter consists. 7. Apparatus according to claim 5, characterized in that immediately around the blockage a coil made of a tube with connections for induction heating and coolant attached is. 1 sheet of drawings 909518/151